SU1435321A1 - Sieve boot - Google Patents

Abstract

The invention relates to S.-x. mechanical engineering, in particular to grain cleaning machines, and m. used in food industry and S.-H. production. The purpose of the invention is to improve the quality of separation by providing spatial sieve oscillations (). The box (K) includes a loading non-perforated area 2, P 3, tray 4 and a pallet. On the part of the unloading part K, receivers (P) of 6.7 times-j division products are installed. On the side of the loading part, K is connected to the frame 8 by means of suspension links, the ends of which are connected by means of ball joints 12 to the loading part K and the frame 8. The suspension is made adjustable in length and mounted for movement relative to the frame. The crankshaft drive mill consists of crank 11 and connecting rod 10. The ends of the latter are connected by means of hinges 12 to the charging part K and crank 11, the plane of rotation of which is perpendicular to the longitudinal axis P 3. The source material is fed to the section 2 K, where the particles subjected to intensive redistribution of the thickness of the layer, depending on their size and density. Stratified, / the mixture arrives at the beginning of P 3. Particles of fine impurities move along P 3, making oscillatory reversals about its longitudinal axis, sifted and go through the pallet to P 7, while the particles of the main culture fall from tray 4 to P 6. 1 h, P. f-ly, 2 ill. € (L

Description

The invention relates to agricultural engineering, in particular to grain cleaning machines, and can be used in food industry and in agriculture for cleaning and sorting grain crops.

 The purpose of the invention is to improve the quality of separation by providing spatial sieve oscillations.

The big.1 shows schematically a lattice mill, side view; in FIG. 2 - the same, top view.

The sieve mill consists of box 1, which has a loading area 2 with a non-perforated surface; sieve 3, tray 4 and tray 5 of the box. With the CTopoiai of the loading part, the sieve mill communicates with a bunker-feeder (not shown), and from the unloading part with receivers 6 and 7 of the separation products. From the loading part, box 1 is connected to frame 8 by means of links 9 of the suspension. which consists of a crank 10 and a crank 11,

The length-adjustable links 9 of the suspension and the connecting rod 10 at both ends have ball joints 12. The lower supports of the links 9 of the suspension are made with the possibility of vertical displacement relative to the frame 8, the plane of rotation of the crank 11 is perpendicular to the longitudinal axis of the sieve 3. Distance A from the connecting points of the connecting rod to the crank up to the fixed axis of its rotation are made adjustable; The value of I on A of the crank length is equal to the horizon; This is the amplitude of the oscillations of the point of the working surface of the box opposite the ball joint 12.

The vertical component of the amplitudes of oscillations is determined by the length of the adjustable links 9 suspension, with their greater length, the vertical composition of the segment of the oscillation amplitude is smaller. To ensure a gradual (linearly) reduction of the vertical and horizontal components of the amplitude of the vibration points of the working surface of the box 1 in the direction of its I load part, it is communicated in this part with the frame 8 by means of an adjustment; link 13, which is rigidly connected to the duct

my through ball joint

where

About Q

five

five

0

five

the support of the latter is made to move relative to paradise in the horizontal direction in the plane of the longitudinal axis of the sieve mill. By varying the length of the link 13 and the position 01; 10p of the ball joint 14 relative to the frame, there is a different character of the variation of the horizontal and vertical components of the sieve length oscillation. Different angle of inclination of the working surface, providing a given performance set by moving the bearings of the ball joints of the links 9 suspension relative to the frame in a vertical plane.

The presence of a flame joint 14, suspension links 9 and a crank drive with ball joints provides the possibility of spatial oscillations of a sieve mill with varying amplitude of oscillations along the pin sieve, which creates conditions for the intensive redistribution of particles in the layer and their orientation relative to holes.

The technological process of cleaning the grain mixture, for example, from small, heavy impurities, is carried out as follows.

The initial grain mixture from the feeder hopper is fed to the beginning of the non-perforated loading section 2, which has a maximum oscillation amplitude, on which an intensive redistribution of the grain mixture particles over the layer thickness occurs depending on their size and density. Small heavy particles move in the layer of the supporting surface of the duct, larger particles of the main culture float to the upper layers. The exfoliated mixture arrives at the beginning of the sieve 3, while particles of small impurities under the action of a periodically varying force of inertia, alternating along the inclined surface of the sieve, oscillate around its longitudinal axis, i.e. it ensures the forced orientation of the flow-through particles relative to the working size of the holes and their sifting. Sifting through the particles of the processes on the pallet 5 enters the receiver 7. As you move the sieve, the thickness of the grain mixture layer decreases to M1.

this reduces the resistance of the particles to the turn located in the lower layer. In accordance with this, the vertical and horizontal components of the oscillation amplitude decrease along the sieve length, which ensures the maintenance of optimal conditions for the orientation and seeding of the passage particles into the aperture along the sieve length. The main culture particles from the sieve 3 are fed to tray 4 and from it to the receiver 6,

Claims (2)

1. A sieve mill including a fixed frame, a sieve box connected to the frame on the side of the unloading part via: a link with an adjustable length link and a crankshaft-drive drive located on the side of the box loading section, which is that, in order to improve the quality of separation due to the provision of spatial oscillations of the sieve, the sieve mill is equipped with suspension links, the ends of which are connected by spherical hinges to the loading part of the box and the frame, while the ends of the drive connecting rod are connected by spheres x hinges from the loading part of the box and a crank rotational plane which is perpendicular to the longitudinal axis of the sieve. 2. The mill according to claim 1, about m and h and h so that the suspension is made adjustable in length and installed with the possibility of vertical movement relative to the frame. ///// /// (rig.1 Jlf // 77 /// 7 / 6 f 9i, d.2 at